Cool stuff. I work a lot with flexures, didn't expect you to make a video on a compliant mechanism. These kinds of joints are indeed quite common in low friction robotics and mechanisms (such as tele-operation with haptic feedback). Your joint has very low sideways support stiffness, as the compliant elements you used are essentially wire flexures (at least as long as you keep the wire in tension). They are compliant in the bending mode about the knee axis of rotation (which you obviously want), but also a similar bending mode in the rotation axis perpendicular to the knee rotation axis and perpendicular to the length of the constraint. Pure rotations in your design are somewhat compensated for due to the spacing of the wires, but pure translations sideways I expect the joint to have nearly zero support stiffness as well. If you want to improve this, use blade flexures of some kind. You can perhaps just use thin metal sheets to fabricate these out of, I believe they are common in hobby stores for scale models. Considering the scale of the joint, the metal sheet you need to use is likely so thin you could cut it with a razor blade. Alternatively you could add a supporting flexure in parallel with the joint you already have (for example a folded leaf), but to do that properly is likely too hard without experience in flexural design. If you want, I can give you a book recommendation that would significantly help you with such joint design (and mechanical constraint design in general).
@zchrode6 ай бұрын
how abt u just give me the book
@BreakingTaps6 ай бұрын
Awesome, thanks for the info! Pinning so more folks can see this. And definitely interested in that book recommendation! Mea culpa, I opted for cable/line because I didn't want to figure out how to mechanically secure thin spring steel ribbons. 😅 But after building these I can definitely see what you mean regarding unwanted motion in the perpendicular direction. Will do some reading and see how to incorporate that in a small package (probably just some M1.5 screws holding them down or something)
@tHaH4x0r6 ай бұрын
@@BreakingTaps The book is called "Exact Constraint: Machine Design Using Kinematic Principles" by Douglas Blanding. Sounds like a tough pill, but especially the first few chapters (the most important ones) are very well written and totally readable without a mathematical background. It specifically addresses how to constrain bodies together, to get certain desired motions. Warning: Once you have learned the knowledge in this book, you will start to see poorly designed mechanisms everywhere you go ;) The book might be hard to find, but I heard that some pirates might have some copies lying around as well, although I'd never advocate for such purposes ;) As further reading if you want to dive a bit deeper into flexure design specifically (which is very closely related to exact constraint design, and builds upon those principles), Johnathan Hopkins has a series here on youtube titled 'Compliant Mechanism Lecture Series'. A warning for some people, there's some undergraduate math involved for a few lectures, but you can quite safely skip those without missing too much. A bit more background for those interested: There's only a couple of research groups in the world who are renowned for flexure designs, and his 'flexible research group' at UCLA is one of them. He is most well known for coming up with the 'FACT' framework, which is a convenient way to envision/design compliant mechanisms using a visual system (the FACT chart).
@berlinberlin42466 ай бұрын
@@tHaH4x0r thank you for sharing!
@LimabeanStudios6 ай бұрын
@@tHaH4x0r Your comments here are exactly the sort of insights I've been itching for thanks a ton. Can't wait to dive into that book.
@JinKee6 ай бұрын
Finally robots can also have bad knees.
@jamesyoungquist69236 ай бұрын
Hahahaha nice 👏🏻. I've been waiting for when robots can finally replace humans in the personal injury category as well
@BR-gc5uo5 ай бұрын
The hate is real. We already put them through hell and now we're going to make them feel pain for it?! Man that's evil.
@BuckeyeStormsProductions5 ай бұрын
My new headcanon for Terminator is the T-900 model got put on injury reserve due to a torn ACL and couldn't go back to 1987 to kill John Connor as a toddler.
@Kycirion4 ай бұрын
Almost as bad as mine.
@quantumblur_31454 ай бұрын
They're gonna be so mad
@LimabeanStudios6 ай бұрын
Suddenly dislocating joints make a lot more sense seeing this. I can see this rolling geometry allowing for some cool variable strength grippers
@badlaamaurukehu6 ай бұрын
Now only for some form of synthetic synovial fluid...
@markhahn0Ай бұрын
@@badlaamaurukehu maybe - it's also interesting that the mating surfaces could be textured/toothed (like gears).
@chir0pter6 ай бұрын
I love how in picking up the rolling-contact leg it instantly is recognizable as something more biological and light, as opposed to the bigger clunkier mechanical bearing-based design These rolling contact joints are something I became interested in recently while trying to find a compliant but weight-bearing hinge, and came across a paper from the 2000s where they used it to make satellite solar panel deployment mechanisms
@5eurosenelsuelo6 ай бұрын
Can you share the name of that paper?
@chir0pter6 ай бұрын
@@5eurosenelsuelo “Tape-spring rolling hinges” watt and pellegrino 2002
@markhahn0Ай бұрын
well, circular ball-bearing races are optimal for where you want full rotation, and around a point.
@_droid6 ай бұрын
These are also considerably lighter than metal ball bearings. The main problem with these is strength. Biology has incredible designs for ligaments, bones, etc that are very difficult to match with traditional materials. Fun stuff!
@ZeroG_Bandit6 ай бұрын
I'd love to see a video that is a marriage of mat sci + biology, to bridge the gap between tissue level architecture of bone, tendon, ligament, and muscle and the structure of the musculoskeletal system.
@BongoWongoOG6 ай бұрын
@@ZeroG_Bandit carbon fibre wrapping might be the key?
@Dan-gs3kg6 ай бұрын
RF85 for the cams
@Dan-gs3kg6 ай бұрын
@@BongoWongoOGlike kernmantle ropes? Sheath braid and core fibers?
@BongoWongoOG6 ай бұрын
@@Dan-gs3kg pretty much, max strength and low weight
@bob28596 ай бұрын
I've seen rolling contact joints used for telescope pointing and some 3d-printed flexures, but never considered non-circular profiles. Can't wait to see the teeny-tiny birdbot in action!
@Insultthumb6 ай бұрын
I too am an expert in the art of rolling joints
@Dan-gs3kg6 ай бұрын
You can see an example of such joints in bow cams
@untitledphysicist32056 ай бұрын
Something to think about if you are not already would be to use nylon for the joints, nylon is self lubricating so it should reduce friction. It may not have a huge impact as friction is already low but it may be worthwhile to test.
@johncochran84976 ай бұрын
Doubt that nylon would do anything. Those are rolling joints, NOT sliding joints. since there's no surface to surface sliding, having a low friction material is irrelevant.
@constantinosschinas45036 ай бұрын
@@johncochran8497 irrelevant, or even make things worse by introducing unwanted sliding.
@ytrew97176 ай бұрын
@@johncochran8497 but aren't rolling joint contacting each other and thus creating friction on surface to surface rolling?
@johncochran84976 ай бұрын
@@ytrew9717 Yes, but the friction is intended to PREVENT sliding. The idea to use nylon because of "lower friction" is akin to saying that we should use nylon for car tires because of "lower friction" and it would be even better if we slathered those nylon tires with grease to lower the friction even more.
@ytrew97176 ай бұрын
@@johncochran8497 thank you, but why would it bad if it slides instead of rolling (stupid question but ...)?
@fxm57156 ай бұрын
I first learned of this joint as a kid, with the Rubik's Magic puzzle. That thing fascinated me, not for the puzzle, but for the compound folding joints it used.
@Cssfiend6 ай бұрын
I also thought of a toy immediately, but a jacob's ladder instead
@fxm57156 ай бұрын
@@Cssfiend Ah, right, the Jacob's Ladder! I think I was a bit too young to be fascinated/confused by that when I first experienced it, plus the Magic implemented the joint in two dimenstions, not just one. But yes, certainly an earlier example in toy form.
@toastquest16814 ай бұрын
@@Cssfiend same here i was looking for a comment about it. i had no idea it was so biological!
@jimmcintosh37186 ай бұрын
I am impressed that not only have you recapitulated the human knee joint, but also the cruciate ligaments which support it.
@truthhunterhawk39323 ай бұрын
I still don't see why people think that the body is not designed. Very good joint design
@aone90503 ай бұрын
Recapitulated..? I'm sure you mean recreated haha
@jimmio37273 ай бұрын
@@aone9050 No, he means recapitulated -- to repeat in concise form.
@X4Alpha4X2 ай бұрын
@@truthhunterhawk3932 define "is not designed"? we have biologic records dating back millions of years for how animal joints first came to be and slowly transformed into what we see today over many different iterations. rolling joints didnt just pop into exitance 6,000 years ago.
@Kazuron6 ай бұрын
That rolling contact point joint version looks eerily like a real leg. I was listening to what you were saying, but my brain immediately went "oh, thats a bird leg"
@aaronhokanson67186 ай бұрын
I started my version of this back in 05. Here's what I learned. You can make them cams to increase torque advantage to position ratio. The "ligament" cables tend to ablate on each other and the groves. I was able to mitigate this some by Drafting the groves by 5°. That's as far as I got. Good luck.
@Yezpahr6 ай бұрын
10:08 That's how my last digit of my ring finger dangles if I stretch my other fingers and contract the ring finger entirely. Try it. Probably works because it's the same type of mechanism lol. 9:27 And I felt that in my knee.
@sueh12246 ай бұрын
wow that ring finger trick looks so bizarre
@veedrac6 ай бұрын
...I regret learning what this comment taught me.
@renxula6 ай бұрын
Interesting! Works with other fingers too, but maybe my ring finger is the floppiest.
@smaug1313 ай бұрын
That's awfully cursed. Thank you
@NerdOracle6 ай бұрын
I too am fascinated by rolling joints 🔥
@TomG-f4r6 ай бұрын
They let u play wit matches?
@CroneKorkN6 ай бұрын
And are good for making contact.
@buudorobuudronovich1507Ай бұрын
finally. a weed joke. that's the whole reason i clicked on this video. "i came here hoping to learn a new way to twist marijuana cigarettes," or something like that.
@cauemarchionattiausec17546 ай бұрын
I've been rolling some joints myself and these are really cool!
@stevrgrs4 ай бұрын
I see what you did there ;)
@namesurname6244 ай бұрын
amen
@danway606 ай бұрын
Thats pretty cool, thank you for sharing! Point about the bearings: Ball bearings are generally meant for high speed, low dynamic load, rotating applications. For small, low speed and impact loads such as those joints, I think you'd be better off using bushes/sleeve bearings instead. That being said, rolling contact joints are awesome!
@hashemmi246 ай бұрын
I usually do a makeshift rolling contact joint to explain why training the opposite of a muscle is just as important. Also helps with teaching correct deadlift form and anterior pelvic tilt.
@brynyard6 ай бұрын
I've seen those with stainless steel bands, they provide a bit of stability/stiffness to the joint as well. Nice design :)
@jazzdirt6 ай бұрын
Dyneema was engineered to replace steel cables.. It's lighter and non corrosive and way stronger..
@cheyannei59836 ай бұрын
@@jazzdirtDyneema has a problem with losing strength due to heat/UV exposure, the friction from knots will significantly weaken dyneema more than other materials which is a pain since it's hard to attach stuff to it otherwise. I think that's where spliced and woven dyneema comes in though
@brynyard6 ай бұрын
@@jazzdirt not cable and not steel, but thin shims (< .1mm) and stainless (316). And since the shims are constrained (wedged between the surfaces) they have a lot of sideways strength, so it improved the sideways stability. Not saying "this is the way", just mentioning another design I've seen.
@jazzdirt6 ай бұрын
@@brynyard Yeah, when I studied Material science engineering that's what they were going for... Eventually it turns out to be more useful in uses where you would otherwise use Kevlar... But the thing they set out to do was to make a strand that was stronger then steel... To make lighter cables.. but it's not suited for that as @cheyannei5983 also pointed out.... I never finished the Material science engineering study... I just know the faculty was working on Dyneema when I was studying there... Studying engineering was trying to do the sensible thing.. I always knew I wanted to make music and I always have.. so that's where I eventually ended up...
6 ай бұрын
This solves a 3d printing problem I had for a long time, thanks!
@zyxwvutsrqponmlkh6 ай бұрын
2:14 That undesired movement is called "Side Fumbling", and what you have created there are some rudimentary marzlevanes.
@shanevonknuth6 ай бұрын
Have you seen how small they can get the retro encabulators now? I know it's more a vanity project to even have one now since they just invert the gram-meters duo-planially now, but it's nice to see.
@stevrgrs4 ай бұрын
@@shanevonknuth it’s like engineers making fun of doctors 😂
@lukejohnston55663 ай бұрын
Personally I prefer lotusoid delta-type spurving bearings for this type of application, but it is hard to find an ambivascient lunar waneshaft this small. Always out of stock on McMaster Carr.
@griffinoconnor15233 ай бұрын
Goddamnit you actually got me with this lol
@Vaasref6 ай бұрын
Did we just see the start of Mecha-Dabchick ?
@MadelynRusco6 ай бұрын
my first thought at seeing the thumbnail too
@arachnenet22446 ай бұрын
Had the same idea haha
@drillerdev46246 ай бұрын
I would actually love to hear Barnaby's opinion on the subject from a puppeteer standpoint Can you imagine an animatronic Dabchick?
@tardigrademicro6 ай бұрын
fuck yeah
@capuchinosofia47716 ай бұрын
I was literally thinking on how this could be used for puppets! Lol
@aserta6 ай бұрын
0:58 i get a ton of micro bearings from old odometers. Whenever i go shopping for replacement parts i made it a purpose to get at least 10 of those, because inside there are sub mm shaft ball bearings that are pretty high quality. Not only are they bearings in the regular sense, but at least one of them is also a side load one (usually the one that's on the main shaft from where the spedo cable would pop in). But we're talking pre-90's odometers. Most modern ones (if they even have mechanical ones) have plastics inside, teflon revolution.
@sethswheelhouse6 ай бұрын
THANK YOU! I was one of the people who commented on the post because it might help my research with finger prosthetics! Thank you so much!
@eugenechelovechniy6 ай бұрын
1:52 I wasn't ready for this
@christopherl.potter39152 ай бұрын
Nah me neither I thought I was having a stroke or something 😆
@SeanCMonahan6 ай бұрын
So hyped! I said yes when you asked whether people would be interested in a standalone video on these types of joints. Glad to see you decided to make one 😊
@charlvanniekerk80096 ай бұрын
Im so glad you uploaded, I desperately needed something epic to watch
@howiewoodАй бұрын
When I was a kid in Tx,in the 70s,I was using these to replicate human structure and movement in some early robot stuff I did. I was influenced by Gray's Anatomy,and some Med school students in Baylor, n Rice.I did it with mostly R.C. parts ,n stuff I scavenged from stuff around my hood( bikes,old pumpz ,etc. I did it cause it was cheap,,minimum parts, and strong,..I worked on it a coulpa summers,got it good, made a working full sized model,,then I got into skateboards n music,and it got shelved,until now,,n its even more fun now,cause Ive the time ,resources,and the internet,..Its nice to know my thinking wasnt off by much back then,And its good 2 know other folks think like I have for most of my life.. CREATE,! LIVE LEARN, STAY CURIOS!! Dont be afraid to fail, this is where we get some of our most valuable lessons...Peace Out!!
@jbrownson6 ай бұрын
You take on the coolest projects, and actually mostly succeed, love it
@gamerscomplete6 ай бұрын
never heard of rolling contact joints before, but it makes total sense. you never dissapoint with your videos, thanks for all the work you put in to share knowledge with us all
@SarahKchannel6 ай бұрын
I used on a previous project, related to hands and fingers, neodymium magnet and steel balls to form a joint. The Magnet was sort of inverse cone shaped to give a pan for the ball to sit in. Added some 'guards' on the side as your joint has to prevent the lateral displacement. Worked really well, rolled like nothing, but was compliant enough for a joint to dislocate when stressed to far.
@augurelite6 ай бұрын
i love how diverse all your projects are! And i always learn something new. great video as usual
@theavaliengineer6 ай бұрын
Very hyped to see you take on this project! A potential source of inspiration to look for might be IRIM Koreatech's LIMS-Ambidex system- they hve a very effective implementation of a rolling contact joint for the elbows of their bot. Their pulley system is one of a kind.
@damprat1414 ай бұрын
I am not any sort of actuall mechanical engineer, but as an artist who loves realism and sci fi, i absolutely adore seeing different variations of mechanical joint systems, and am definitely going to draw something inspired by this design
@barmetler6 ай бұрын
It's like these glasses cases! With the three stripes, if you know what I'm talking about. Edit: I think they're called "magic cases". They were all the rage back in the late 00's
@radioactive_nrg6 ай бұрын
Was just about to comment that! They also come as calculators, pen cases, manicure sets and probably a lot more.
@coyotedomino6 ай бұрын
yesss those and jacob's ladders
@NigelTolley3 ай бұрын
And Rubik's Magic, if anyone else here recalls those!
@viniciusvbf223 ай бұрын
Thank you so much for taking the time to make, edit and publish this video! A very clever design, indeed.
@drewsipher6 ай бұрын
Any references on how to design the curves in the joints?
@stalincat24576 ай бұрын
Judging by 2:43 it's as simple (cough) as moving the axles closer or further apart. The string will want to keep the hinge in the least tensioned position. Moving the leg will either abrubtly tension the cord, creating an "end stop' or when turned the other way will gradually increase tension. That would mean that the neutral "strength" can also be adjusted by varying the amount of rope ever so slightly.
@ReplicateReality6 ай бұрын
This is so amazing, ive had this exact kind of robot in mind for a long time, using ligaments and natural bone structure, mimicking nature, im going to have to copy the motor attachment method because I haven't figured out how to power the ligaments but this is like the coolest thing ever, I literally have a 5+ year old playlist on youtube for "tiny robots"
@FlyGamingChannel6 ай бұрын
So excited for this video after seeing your community post!
@nandorherpai8581Ай бұрын
Congratulation for the work! Such inventions always remind me of how remarkable nature's engineering is. For a limited, but relatively long lifespan, nature has also solved the lubrication and wear problems of the joints.
@TDOBrandano6 ай бұрын
Ah, compliant rolling contact joints. Nicholas J. Seward designed an elbow driven delta 3d printer based on the concept, though it was only a concept prototype (the Reprap Gus Simpson). He used herringbone gears to keep the parts aligned through the rolling motion,. maybe it would scale sufficiently well down with plain gears?
@funkydozer6 ай бұрын
It’s a great joint solution for sure, very effective. But not like animal joints, the bones of which do not roll against each other but have a cartilage pad between that allows the bones to slide against each other, which prevents bone wear. Would be interesting to see a design worked up using nylon or graphite cartilage to slide two ‘bones’ against each other
@jimurrata67856 ай бұрын
Im in a hospital bed looking at getting 2 new knees. You don't know how topical this is!
@marshmellominiapple2 ай бұрын
Another advantage I can think of is that the r-c joints are pretty much immune to failing from (in plane?) compressive impacts. The force (in the case of a bird) would travel down the leg and through the joint. For a ball bearing this could ruin the surface finish in the inner races and potentially jam it, this is because the force is concentrated basically at several points (spheres contact a surface at a point). R-c joints contact along lines, therefore forces are spread over a lot more surface area. Bearings have the advantage that forces applied in planes are treated equally in every direction, whereas a r-c joint is going to perform much worse in tension than in compression.
@ModelLights6 ай бұрын
As others have mentioned, you have ligaments, self-correction, etc involved in biology. It will be difficult to get this 'tight'. Ball bearings are 'loose' when small, and overkill for a small, slow joint. Sleeve and pin type bearings especially with bronze may get you a much better, more precise joint. When you go small scale like this, you quickly want to start studying watches, almost every consideration you can possibly come up with has already been done in that field. Or you could make the leg about 4x longer, probably still doable and that would get the same error and play down to a more reasonable percentage of the over overall motion. Not knocking it if you want to try it at all, but off hand it's just very hard to reduce the inherent play in something like this, vs instant high precision with a sleeve bearing type system.
@nirodper6 ай бұрын
was looking for this comment, a simple bushing is the correct thing for this application, cheaper, more precise and more durable than any of the other options
@lennartweber15024 ай бұрын
Dude from the intro setup alone i can tell you must be a legend within your maker community. Awesomw video!
@Illure6 ай бұрын
I've seen that in some toys but they used a band instead of a string. They were fun to fiddle with
@kray38832 ай бұрын
I also think a flat profile ribbon would be the way to go as the connector... Adds even more lateral stability for "free" and won't chew into the underlying surface as quickly.
@alexandervarakosov6 ай бұрын
Neat! This is the same joint that was commonly used on early aircraft to attach control surfaces and is still used on models today.
@DurzoBlunts6 ай бұрын
I thought I've seen these before in Lego sets from the 90s. 3612 part # from the aqua zone kits
@J_CtheEngineer6 ай бұрын
We all know you’re secretly making a robot for barnaby Dixon.
@StormBurnX6 ай бұрын
I had JUST gone on a Breaking Taps binge this weekend because I realized I missed this kind of content. Just went to the channel, sorted by oldest, and clicked play. It was great, I highly recommend it especially for people who might be new to the channel! The style is different but the quality is the same and the themes are still interesting and useful
@lunarz71176 ай бұрын
When I first saw this on Twitter, I was like- This can be used in micro scale Models! Use this as a Steering Hinge in a Hotwheels car or a Model Kit!
@techristopher807723 күн бұрын
I saw this style of flex joint in an industrial trade magazine back in the 60s or early 70s. I am glad that you are using the technique.
@austinsus13194A2 ай бұрын
I searched up rolling joints on a school computer to find this video…
@BongoWongoOG6 ай бұрын
Never seen this mechanism before, I can see a huge range of applications for this, especially as the fastennings and 'ligaments' can be designed to attach to the housing. Very nice, wish my mechano when I was a kid had these joints !
@BartJBols6 ай бұрын
9:27 thats the sound my knee made when i got hit from the side by a scooter.
@rmt3589Ай бұрын
It's like a real knee! With fishing line as sinew. Wanna try this, but it's already looking tasty.
@guytech73106 ай бұрын
Plain bearings are always an option. small Bronze bushing bearings. Consider that heavy equipment like excavators, Bulldozers, Use plain bearings for maximum strength.
@sozno42224 ай бұрын
Impressive. Can’t fathom how much time and effort it took to think it up and design it. Way to go!
@Gounesh6 ай бұрын
Holy grail of mechanical joints! As many (if not all) biological beings with joints, we have proprioception and there's a constant feedback of tentioning and loosing stabilizators (in our case muscles) without being aware. This is looking extremely similar to knee joint (with missing couple stabilizing tendons) but with the right tention sensing feedback and a good enough processor, we might see this everywhere as it looks cheap and clever. World loves cheap and clever! Thanks for sharing!
@ulforcemegamon30946 ай бұрын
You could also make it so that it reacts to changes instantly , one good example is "Birdbot" , it uses cables as tendons and they react to changes instantly , also is way less bulkier than other designs and is scalable
@atalhlla6 ай бұрын
I wondered why you didn’t do the figure-8 in all 4 slots, then realized that keeping them separate is necessary to prevent the cable from wearing against itself. Very nice joint and explainer!
@jonnyphenomenon6 ай бұрын
The makers of the Rubik's cube made a couple puzzles they called the Rubik's magic and master magic(I think). They used a rolling compliant mechanism like these in a way. The regular one consisted of 8 square tiles in a 4x2 arrangement. The goal was to fold and flip the puzzle in various ways to change their shape into more of a v shape while rearranging the tiles so the photo on the back turned into three linked rings. They usually got turned into a tangled mess of fishing wire and tossed into the garbage. I have a few of them!
@kray38832 ай бұрын
There's a much older "folk toy" called a Jacob's ladder that is basically the precursor to those.
@charleichen3763Ай бұрын
You are truely a genius. Your videos give me so much inspiration. Thanks!
@karsnoordhuis43516 ай бұрын
Its a very cool mechanism that suits this project really well but since its a low load, slow moving joint, woulnt a bronze/oilite or teflon bushing be a suitable alternative to miniature ball bearings?
@BreakingTaps6 ай бұрын
Definitely an option! I have a design for the smallest oil bushings McMaster sells somewhere in my CAD folder and it probably would work well, although I spent more of the "design volume" then dealing with limiting range of motion. But very viable, and I probably should have mentioned bushings!
@dekutree646 ай бұрын
Yeah, it was a revolution for me when I realized that using ball bearings for low-speed joints is stupid. Teflon is a wonder material. The overall structure ends up so much smaller and lighter weight for the same strength, and you can buy meters of tube for a few bucks and 3D print jigs to hold it and guide a razor blade to slice off precise lengths effortlessly. For larger bearings I use teflon sheet, and cut flat circles for the thrust surface, and strips to wrap around into radial bearings. Strips are easy to cut, but flat circles are pretty fiddly. But it is nice that you only need to buy one sheet to make any diameter bearings you want.
@BirnieMac16 ай бұрын
@@BreakingTapsanother really fancy option is iglidur z; I’m working on my uni’s student formula and we’ve been using them for a lot of brushings because theyre basically self lubricating teflon bushings with better mechanical properties (around 0.05 to 0.14 u w/ steel iirc) Though we had a bit of issue with them being too low friction and slippage was happening in other places the company were super helpful though and they made a lot of different sizes and could be another lot to check out you end up looking for polymer bushings
@BrooksMoses6 ай бұрын
Also worth noting is that McMaster often isn't a great supplier for tiny things on that scale. A better option for tiny bushings would be Northwest Short Line, who do parts for model trains. Along those lines, the "needlepoint bearings" that are often used for model traincar wheels can also work well down to quite small sizes. Those are a simple mechanism where the ends of the axles are pointed to sharp points, and they snap into small conical recesses that have a bit larger angle than the axle points. Typically the axles are steel, and the sockets are a delrin-like plastic, though I've also seen this in brass.
@RectalRooter6 ай бұрын
@@BreakingTaps Yeap -- gonna keep asking What happened to the Space Shuttle / spaceX ceramic heat tiles ?
@NeoIsrafil6 ай бұрын
I mean, to be perfectly honest with you ive got bearings with a 1mm id and 3mm od, and ive seen smaller ones, but these will be SUPER useful for a few ideas i had a while back so thank you for teaching it anyway ^_^
@iteerrex81666 ай бұрын
That 0:32 looks more like the Robo Cop, than a bird lol
@free_at_last81416 ай бұрын
Please put down your banana, you have 20 seconds to comply.
@JTCF6 ай бұрын
I've had a glasses case that used the same principle. Beyond the flexure joint itself you just had it operate like hinges, but you could flip it all the way around to change the color! The bands holding it together has different colors on the two surfaces. It was a pretty cool mechanism and I liked fidgeting with it.
@regenwurm55846 ай бұрын
But can it roll a joint?
@paaabl0.6 ай бұрын
Really cool project! You're right that this type of joints is rarely spotted in hobby projects
@Ravenwraithstudios6 ай бұрын
So, your building a bird because birds aren't real
@marcmessett6844Ай бұрын
The video is in reverse. He's dismantling one
@Josh-ee6hjАй бұрын
I've only tried rolling contact blunts so I'm excited for this tutorial!
@ianwhittinghill6 ай бұрын
Pickle Rick vibes
@SusDoctor3 ай бұрын
I turned myself into a pickle, Morty! Boom! Big reveal: I'm a pickle. What do you think about that? I turned myself into a pickle! W-what are you just staring at me for, bro? I turned myself into a pickle, Morty! Morty: And? Pickle Rick: "And"? What more do you want tacked on to this? I turned myself into a pickle, and 9/11 was an inside job? Morty: Was it? Pickle Rick: Who cares, Morty? Global acts of terrorism happen every day. Uh, here's something that's never happened before: I'm a pickle. I'M PICKLE RIIIICK!!
@slakjawnotsayin54516 ай бұрын
This had nothing to do with what I was trying to find on YT, but I was fascinated by it and had to watch it anyway! That is so cool man!!!
@bradchadley2576 ай бұрын
Only 1 view in 29 seconds? Breaking taps fell off smh
@yasirrakhurrafat11426 ай бұрын
Bro has gained the irrelevant achievement!
@skmgeek6 ай бұрын
thank you
@maymayman06 ай бұрын
Someone should make a browser addon that hides these comments
@sdfpv26584 ай бұрын
Extremely cool and innovative! I love small complex parts just like this, especially ones that solve a problem cleverly! Good Stuff!!!
@jaydenklassen25674 ай бұрын
This could revolutionize prosthesis engineering! I can only imagine the many applications
@jamesskyrimoblivion6 ай бұрын
Thank you, I'm definitely going to integrate this joint into one of my future projects :) so cool!
@chernoboogaloo6 ай бұрын
Thank you very much for sharing this. I found the video very interesting, and appreciate that you put the time and effort into printing a scaled-up model to show us how it works and how to thread it.
@badger96415 ай бұрын
First time seing this joint! Thanks from France for spreading some awarness!
@alexharvey97216 ай бұрын
I did that once when I was trying to achieve basically the same thing. Was amazed at how well it worked actually. Very well suited to 3d printing and I can't imagine a more cost effective solution. Actually amazing low friction and durable too. I didn't know it was a thing though. Mine were more bone shaped with grooves like small gear teeth to stop the 2 ends sliding/slipping. With the elasticity of the fishing line it makes not only a very strong joint, but just like bones it would dislocate if you applied too much force in the wrong direction, which meant you could just push it back together for an easy fix (so I didn't bother with the side bits or vertical grooves, as just 2 gear like ends and enough tension in the line would make it hard enough to dislocate and virtually indestructible). Had almost forgotten about it until I saw this. Leg looks awesome, I'm looking forward to seeing how it turns out!
@palmtreeshenanigansАй бұрын
Using the string you could take it up to tiny stepper motors in the body of the vehicle and get it to walk, i guess a lot of work to get it to work but you have resolved almost all issues with the joint size and rigidity.
@AerialWaviator6 ай бұрын
Fascinating project, and joint mechanism. Look forward to seeing more videos as you work to build up the mechanism into a working robotic limb. Neat idea to make a scaled up version for demo, it really helped show details.
@KaletheQuick6 ай бұрын
Very nice to see a video about this. That 'Open Hand' thing had a video come out a month or two ago and I was surprised to see ball bearings instead of this.
@brycie34534 ай бұрын
I plan on making full size self powered anatomically functional digi legs once I have the money to invest in materials and this video is immediately inspiring some new things for my eventual prototyping
@aqueuse6 ай бұрын
I have tried to do that basically all my life, so I'm very hyped to see your full version of this tiny robot with motors etc
@ianm5233 ай бұрын
Thank you so much for making this video. This is perfect for a project of mine. You rock!
@KingScrubMaster25 күн бұрын
This is fantastic. The only thing that would make me happier is seeing something equivalent to cartilage. Although the plastic in use may have a bit more 'give' relative to the relationship between bone and cartilage, so it might be covered on an acting force distribution and wear buffer for the bone, at least for the materials you're using during prototyping. Awesome stuff!
@r0cketplumber2 ай бұрын
Some of the slots are not completely populated with a cord and can be tapered to aid in assembly- once you start threading, each path will be obvious. Likewise, the transverse routes from side to side can have grooves the depth of the cord to guide the cord, and where the cord is wrapped around the outside of the bones grooves can recess the cord to protect it from abrasion. If each cord is independent, a single damaged cord will not destroy the integrity of the joint. A smaller hole for a stopknot, or a hook or peg for the end to be attached to can help. A compact means for tensioning the cords can tighten up the joint, too. This can be as simple as a screw and a washer- loosen the screw, wrap the cord around, tighten the screw, just like the rudder adjust on my Hobie kayak.
@almosh32712 ай бұрын
You also can use small brass tubes as well. Back in 1960's when I flew control line model planes, we also sowed the moving surface such as elevator.
@VyTheWitch6 ай бұрын
it reminds how nanoscopic insect have lashes looking wings because at this scale air is to thick to be navigated with "paddles" It's basically the same here, you adapted your technology to the scale, with something not expected in the robotic field, that's awesome, you can be absolutly proud of yourself, keep up the good work !
@ryebis6 ай бұрын
Cool idea and build. Watches and other small devices do use small bearings, but the way they're are used is different.
@dominictarrsailing4 ай бұрын
Very cool. I make these for boat stuff. They are how they make rudders on wharram designs. They work great, very low friction. I didnt know what to call them but now i do! For me they work a lot better with a bit of glue in the holes, to stop the side to side motion.
@gonzalocobosbergillos49806 ай бұрын
Really nice! I have used this kind of braided fishing line to change the angle of rotation, when gears were too small to work reliabily. I hope to see this project advancing, it's very cool!
@atomatopia16 ай бұрын
Super cool concept. Have you considered making the contacting parts concave+convex and giving them gear-like teeth? It seems like they might help support the joint against any kind of slippage in the wrong directions
@RichardMerrill3Hawk5 ай бұрын
This is just like the old cable rocking chair, not just in robotics. Cool!
@meggawatts2 ай бұрын
Dyneema is also used in climbing ropes. If you haven't found them yet, the HowNot2 channel has all kinds of neat break tests on all kinds of climbing gear, and a lot depends on the ropes used. I would think the slipperiness of the dyneema would end up causing some issues, and it seems to be hard to get tension on it in your flexures. They will most likely fail over time as the dyneema cord stretches and deforms over time, it isn't very stable and will stretch over sustained load. Cool project!
@spdcrzy5 ай бұрын
I can easily imagine an oversized version of this with additional internal grooves in each individual contact joint surface with captive ball bearings for even lower friction (and better repairability) in an exoskeleton-type robot, with additional locking mechanisms and damping as well as larger endplates for additional lateral rigidity.
@Rick_Cavallaro6 ай бұрын
I did not know that human joints followed this principle. I assumed they were more of the ball & socket variety. I learned something today.
@EuphoricPentagram2 ай бұрын
It’s so cool! Its very reflective of bones and muscles which I love
@Paint0nBrush6 ай бұрын
I recently had an epiphany (maybe last week or so) about this kind of joint, but in my model, it was with rubber bands. I'm glad to find its name.
@mdrdprtcl6 ай бұрын
Very satisfying joint movement, and it does look cool!
@jakob.k_designАй бұрын
I love learning things like this. Thanks for the explanation.
@JasonCummer6 ай бұрын
Cool neat to see other versions and innovations of this. I worked on and off last year on a simpler banded version of complient rolling joints. Tricky but rewarding . Interesting you use of fishing line